#!/usr/bin/python3

# Copyright (c) 2017-2018 Bluespec, Inc. All Rights Reserved.
# ================================================================

# Background: CPU caches have a large number of sizing concepts such
# as total size, address size, word size, cache line size, set
# associativity, tag size, index size, address of word in cache line,
# address of cache line in set, and so on, and of course each can be
# expressed in various size units like bits, bytes, kilobytes, ...
# depending on convenience.  Further, in BSV we often want the sizes
# both as types and as values.  Since all these sizes are
# inter-related, hand-written declarations are laborious to produce;
# do not often make the inter-relationships clear; and it is easy to
# make a mistake and produce inconsistent size declarations.

# This program is given just 4 basic, independent sizes:
#    Bit per PA         (bits in a physical address)
#    KB per cache       (total cache memory size)
#    word64s per cline  (64b words per cache line)
#    ways per set       (set associativity)
# and generates declarations for all the sized elements of interest in BSV
# source code as a BSV package. Each declaration shows the actual size
# and, as a comment, the formula used, if it is derived from other
# sizes.  The basic sizes are provided on the command line.
# --help will remind you of the command-line arguments.

# We assume the cache is indexed using virtual addresses
# and tagged using physical addresses.

# ================================================================

import argparse
import sys
import os
import math
import yaml

# ================================================================
# Key data structure:
#     items :: [(name::string, value::int: formula::string)]

# ================================================================

def main (argv = None):
    (bsv_package_name, items) = process_program_args ()
    print ("Generating package {0} from these basic values:".format (bsv_package_name))
    print_items (items)

    items = compute_derived_values (items)

    addr_hi_cset_in_cache = sel (items, "addr_hi_cset_in_cache")
    if (addr_hi_cset_in_cache > 11):
        print ("ERROR: addr_hi_cset_in_cache (high-bit of cache index) = {0}".format (addr_hi_cset_in_cache))
        print ("    Should be inside 4KB page (< 12) for virtual-indexed, physically-tagged cache.")
        for item in items:
            print (item)

    # ---- Generate BSV source file
    generate_BSV_file (bsv_package_name, items)

    return 0

# ================================================================
# Yaml-file and command-line argument processing

def process_program_args ():
    sys.stdout.write ("Use  --help  for help\n")

    # ---- defaults
    default_yaml_file      = 'RV32_Sv32_args.yaml'
    bsv_package_name       = 'Cache_Decls_RV32'
    item_Bits_per_PA       = 34
    item_KB_per_Cache      = 4
    item_Word64s_per_CLine = 4
    item_Ways_per_CSet     = 1

    # ---- Parse command-line arguments
    parser = argparse.ArgumentParser (description = "Generate BSV declarations for a cache module.",
                                      epilog = "Priority command-line args > yaml file > defaults")
    parser.add_argument ('--yaml_file',
                         help = "YAML file containing the basic sizes (default {0})".format (default_yaml_file))
    parser.add_argument ('--bsv_package_name',
                         help = "Name of BSV package in generated BSV source file (default: {0})".format (bsv_package_name))
    parser.add_argument ('--Bits_per_PA',
                         help = "Bits per Physical Address (default = {0})".format (item_Bits_per_PA))
    parser.add_argument ('--KB_per_Cache' ,
                         help = "Total size of cache in kilobytes (default = {0})".format (item_KB_per_Cache))
    parser.add_argument ('--Word64s_per_CLine',
                         help = "# of data Word64s in a cache line (default = {0})".format (item_Word64s_per_CLine))
    parser.add_argument ('--Ways_per_CSet',
                         help = "Set associativity of cache (# of ways in a cache set; default {0})".format (item_Ways_per_CSet))
    args = parser.parse_args ()

    args_yaml = None
    if (args.yaml_file == None):
        try:
            sys.stdout.write ("No yaml_file specified; attempting to read default {0} file ...".format (default_yaml_file))
            sys.stdout.flush ()
            with open (default_yaml_file, 'r') as stream:
                args_yaml = yaml.load (stream)
            sys.stdout.write ("success\n")
        except:
            sys.stdout.write ("... no such file found\n")
            pass
    else:
        try:
            with open (args.yaml_file, 'r') as stream:
                sys.stdout.write ("Reading {0} file\n".format (args.yaml_file))
                args_yaml = yaml.load (stream)
        except:
            sys.stdout.write ("ERROR: unable to read {0} file\n".format (args.yaml_file))
            sys.exit (1)

    # Over-ride from yaml file
    if (args_yaml != None):
        if (args_yaml ['bsv_package_name']  != None): bsv_package_name       = args_yaml ['bsv_package_name']
        if (args_yaml ['Bits_per_PA']       != None): item_Bits_per_PA       = int (args_yaml ['Bits_per_PA'])
        if (args_yaml ['KB_per_Cache']      != None): item_KB_per_Cache      = int (args_yaml ['KB_per_Cache'])
        if (args_yaml ['Word64s_per_CLine'] != None): item_Word64s_per_CLine = int (args_yaml ['Word64s_per_CLine'])
        if (args_yaml ['Ways_per_CSet']     != None): item_Ways_per_CSet     = int (args_yaml ['Ways_per_CSet'])

    # Over-ride from command-line arguments
    # ---- Create 'items' data structure with all values
    if (args.bsv_package_name  != None): bsv_package_name       = args.bsv_package_name
    if (args.Bits_per_PA       != None): item_Bits_per_PA       = int (args.Bits_per_PA)
    if (args.KB_per_Cache      != None): item_KB_per_Cache      = int (args.KB_per_Cache)
    if (args.Word64s_per_CLine != None): item_Word64s_per_CLine = int (args.Word64s_per_CLine)
    if (args.Ways_per_CSet     != None): item_Ways_per_CSet     = int (args.Ways_per_CSet)

    items = [ ("Bits_per_PA",         item_Bits_per_PA,       "(basic)"),
              ("KB_per_Cache",        item_KB_per_Cache,      "(basic)"),
              ("Word64s_per_CLine",   item_Word64s_per_CLine, "(basic)"),
              ("Ways_per_CSet",       item_Ways_per_CSet,     "(basic; associativity)") ]

    return (bsv_package_name, items)

# ================================================================
# Print 'items'

def print_items (items):
    for (attr, val, formula) in items:
        print ("    {0:20s}= {1:4}    {2}".format ((attr + ":"), val, formula))

# ================================================================
# Select value associated with name from items

def sel (items, name):
    for (attr, val, formula) in items:
        if (attr == name):
            return val
    print ("Error: no attr {0} in items".format (name))
    sys.exit (1)

def sel2 (items, name):
    for (attr, val, formula) in items:
        if (attr == name):
            return (val, formula)
    print ("Error: no attr {0} in items".format (name))
    sys.exit (1)

# ================================================================
# Compute derived values

Bits_per_Byte           = 8
Bytes_per_Word64        = 8
Bits_per_Byte_in_Word64 = 3
addr_lo_byte_in_word64  = 0
addr_hi_byte_in_word64  = 2

def compute_derived_values (items):
    items.append (("Bytes_per_CLine",
                   sel (items, "Word64s_per_CLine") * Bytes_per_Word64,
                   "Word64s_per_CLine * Bytes_per_Word64"))

    items.append (("Bits_per_CLine",
                   sel (items, "Bytes_per_CLine") * Bits_per_Byte,
                   "Bytes_per_CLine * 8"))

    items.append (("Bytes_per_CSet",
                   sel (items, "Ways_per_CSet") * sel (items, "Bytes_per_CLine"),
                   "Ways_per_CSet * Bytes_per_CLine"))

    items.append (("Bytes_per_Cache",
                   sel (items, "KB_per_Cache") * 1024,
                   "KB_per_Cache * 1024"))

    items.append (("Word64s_per_Cache",
                   int (sel (items, "Bytes_per_Cache") / Bytes_per_Word64),
                   "Bytes_per_Cache / Bytes_per_Word64"))

    items.append (("CLines_per_Cache",
                   int (sel (items, "Bytes_per_Cache") / sel (items, "Bytes_per_CLine")),
                   "Bytes_per_Cache / Bytes_per_CLine"))

    items.append (("CSets_per_Cache",
                   int (sel (items, "Bytes_per_Cache") / sel (items, "Bytes_per_CSet")),
                   "Bytes_per_Cache / Bytes_per_CSet"))

    items.append (("Word64_Sets_per_Cache",
                   sel (items, "CSets_per_Cache") * sel (items, "Word64s_per_CLine"),
                   "CSets_per_Cache * Word64s_per_CLine"))

    items.append (("Bits_per_Word64_in_CLine",
                   int (math.log2 (sel (items, "Word64s_per_CLine"))),
                   "log2 (Word64s_per_CLine)"))

    items.append (("Bits_per_Byte_in_CLine",
                   int (math.log2 (sel (items, "Bytes_per_CLine"))),
                   "log2 (Bytes_per_CLine)"))

    items.append (("Bits_per_CSet_in_Cache",
                   int (math.log2 (sel (items, "CSets_per_Cache"))),
                   "log2 (CSets_per_Cache)"))

    items.append (("Bits_per_Word64_Set_in_Cache",
                   sel (items, "Bits_per_CSet_in_Cache") + sel (items, "Bits_per_Word64_in_CLine"),
                   "Bits_per_CSet_in_Cache + Bits_per_Word64_in_CLine"))

    items.append (("Bits_per_CTag",
                   sel (items, "Bits_per_PA") - (sel (items, "Bits_per_CSet_in_Cache")
                                                 + sel (items, "Bits_per_Byte_in_CLine")),
                   "Bits_per_PA - (Bits_per_CSet_in_Cache + Bits_per_Byte_in_CLine)"))

    items.append (("Bits_per_Way_in_CSet",
                   int (math.log2 (sel (items, "Ways_per_CSet"))),
                   "log2 (Ways_per_CSet)"))

    items.append (("addr_lo_word64_in_cline",
                   addr_hi_byte_in_word64 + 1,
                   "addr_hi_byte_in_word64 + 1"))

    items.append (("addr_hi_word64_in_cline",
                   sel (items, "addr_lo_word64_in_cline") + sel (items, "Bits_per_Word64_in_CLine") - 1,
                   "addr_lo_word64_in_cline + Bits_per_Word64_in_CLine - 1"))

    items.append (("addr_lo_cset_in_cache",
                   sel (items, "addr_hi_word64_in_cline") + 1,
                   "addr_hi_word64_in_cline + 1"))

    items.append (("addr_hi_cset_in_cache",
                   sel (items, "addr_lo_cset_in_cache") + sel (items, "Bits_per_CSet_in_Cache") - 1,
                   "addr_lo_cset_in_cache + Bits_per_CSet_in_Cache - 1"))

    items.append (("addr_lo_word64_set_in_cache",
                   addr_hi_byte_in_word64 + 1,
                   "addr_hi_byte_in_word64 + 1"))

    items.append (("addr_hi_word64_set_in_cache",
                   sel (items, "addr_lo_word64_set_in_cache") + sel (items, "Bits_per_Word64_Set_in_Cache") - 1,
                   "addr_lo_word64_set_in_cache + Bits_per_Word64_Set_in_Cache - 1"))

    items.append (("addr_lo_ctag",
                   sel (items, "addr_hi_cset_in_cache") + 1,
                   "addr_hi_cset_in_cache + 1"))

    return items

# ================================================================
# Generate the output (BSV source file)

def generate_BSV_file (BSV_package_name, items):
    filename = BSV_package_name + ".bsv"
    fout = open (filename, "w")

    fout.write ("// Copyright (c) 2016-2018 Bluespec, Inc. All Rights Reserved.\n" +
                "// DO NOT EDIT! This file is automatically generated from a script\n" +
                "\n" +
                "// Size, type and function declarations for cache structures\n" +
                "\n" +
                "package " + BSV_package_name + ";\n")

    fout.write ("\n" +
                "// ================================================================\n" +
                "// Basic sizes, from which everything else is derived\n" +
                "\n")

    fout.write ("// Bits_per_PA       = {0:2d}    (= 0x{1:02x})    (bits per physical addr)\n".format (
                sel (items, "Bits_per_PA"), sel (items, "Bits_per_PA")))
    fout.write ("// KB_per_Cache      = {0:2d}    (= 0x{1:02x})    (cache size)\n".format (
                sel (items, "KB_per_Cache"), sel (items, "KB_per_Cache")))
    fout.write ("// Word64s_per_CLine = {0:2d}    (= 0x{1:02x})    (cache line size in word64s)\n".format (
                sel (items, "Word64s_per_CLine"), sel (items, "Word64s_per_CLine")))
    fout.write ("// Ways_per_CSet     = {0:2d}    (= 0x{1:02x})    (associativity)\n".format (
                sel (items, "Ways_per_CSet"), sel (items, "Ways_per_CSet")))

    fout.write ("\n" +
                "// ================================================================\n" +
                "// Type decls\n")

    gen_decls (fout, True, items)

    fout.write ("\n" +
                "// ================================================================\n" +
                "// Integer decls\n")

    gen_decls (fout, False, items)

    fout.write ("\n" +
                "// ================================================================\n" +
                "// Addresses and address-fields\n")

    fout.write ("\n" +
                "// Local synonyms (for use in this package)\n" +
                "typedef Bit #(Bits_per_CLine)                     CLine;\n" +
                "typedef Bit #(Bits_per_CTag)                      CTag;\n" +
                "typedef Bit #(Bits_per_Byte_in_CLine)             Byte_in_CLine;\n" +
                "typedef Bit #(Bits_per_Word64_in_CLine)           Word64_in_CLine;\n" +
                "typedef Bit #(Bits_per_Way_in_CSet)               Way_in_CSet;\n" +
                "typedef Bit #(Bits_per_CSet_in_Cache)             CSet_in_Cache;\n" +
                "typedef Bit #(Bits_per_Word64_Set_in_Cache)       Word64_Set_in_Cache;\n")

    fout.write ("\n" +
                "// ================================================================\n" +
                "// Address-decode functions\n")

    fout.write ("\n" +
                "function  Bit #(3)  fn_Addr_to_Byte_in_Word64 (Bit #(n)  addr);\n" +
                "   return  addr [2:0];\n" +
                "endfunction\n")

    fout.write ("\n" +
                "function  Word64_in_CLine  fn_Addr_to_Word64_in_CLine (Bit #(n)  addr);\n" +
                "   return  addr [addr_hi_word64_in_cline : addr_lo_word64_in_cline ];\n" +
                "endfunction\n")

    fout.write ("\n" +
                "function  CSet_in_Cache  fn_Addr_to_CSet_in_Cache (Bit #(n)  addr);\n" +
                "   return  addr [addr_hi_cset_in_cache : addr_lo_cset_in_cache ];\n" +
                "endfunction\n")

    fout.write ("\n" +
                "function  Word64_Set_in_Cache  fn_Addr_to_Word64_Set_in_Cache (Bit #(n)  addr);\n" +
                "   return  addr [addr_hi_word64_set_in_cache : addr_lo_word64_set_in_cache ];\n" +
                "endfunction\n")

    fout.write ("\n" +
                "function  CTag  fn_PA_to_CTag (Bit #(n)  pa);\n" +
                "   return  pa [(valueOf (n) - 1) : addr_lo_ctag ];\n" +
                "endfunction\n")

    fout.write ("\n" +
                "// Align to start of CLine\n" +
                "function  Bit #(n)  fn_align_Addr_to_CLine (Bit #(n)  addr);\n" +
                "   Bit #(n) mask = (1 << addr_lo_cset_in_cache) - 1;\n" +
                "   return  addr & (~ mask);\n" +
                "endfunction\n")

    fout.write ("\n" +
                "// ================================================================\n" +
                "\n" +
                "endpackage: " + BSV_package_name + "\n")

    print ("Wrote file: ", filename)

# ================================================================
# Generate declarations, either for type size or for value

def gen_decls (fout, size_not_val, items):
    fout.write ("\n" +
                "// Cache Lines ----------------\n" +
                "\n")
    gen_decl (fout, size_not_val, "Word64s_per_CLine", sel2 (items, "Word64s_per_CLine"))
    gen_decl (fout, size_not_val, "Bits_per_Word64_in_CLine", sel2 (items, "Bits_per_Word64_in_CLine"))
    fout.write ("\n")
    gen_decl (fout, size_not_val, "Bytes_per_CLine",   sel2 (items, "Bytes_per_CLine"))
    gen_decl (fout, size_not_val, "Bits_per_Byte_in_CLine",  sel2 (items, "Bits_per_Byte_in_CLine"))
    fout.write ("\n")
    gen_decl (fout, size_not_val, "Bits_per_CLine",    sel2 (items, "Bits_per_CLine"))

    fout.write ("\n" +
                "// Cache Sets ----------------\n" +
                "\n")
    gen_decl (fout, size_not_val, "Ways_per_CSet",  sel2 (items, "Ways_per_CSet"))
    gen_decl (fout, size_not_val, "Bits_per_Way_in_CSet", sel2 (items, "Bits_per_Way_in_CSet"))
    fout.write ("\n")
    gen_decl (fout, size_not_val, "Bytes_per_CSet", sel2 (items, "Bytes_per_CSet"))

    fout.write ("\n" +
                "// Cache ----------------\n" +
                "\n")
    gen_decl (fout, size_not_val, "KB_per_Cache",                 sel2 (items, "KB_per_Cache"))
    gen_decl (fout, size_not_val, "Bytes_per_Cache",              sel2 (items, "Bytes_per_Cache"))
    gen_decl (fout, size_not_val, "Word64s_per_Cache",            sel2 (items, "Word64s_per_Cache"))
    gen_decl (fout, size_not_val, "CLines_per_Cache",             sel2 (items, "CLines_per_Cache"))
    fout.write ("\n")
    gen_decl (fout, size_not_val, "CSets_per_Cache",              sel2 (items, "CSets_per_Cache"))
    gen_decl (fout, size_not_val, "Bits_per_CSet_in_Cache",       sel2 (items, "Bits_per_CSet_in_Cache"))
    fout.write ("\n")
    gen_decl (fout, size_not_val, "Word64_Sets_per_Cache",        sel2 (items, "Word64_Sets_per_Cache"))
    gen_decl (fout, size_not_val, "Bits_per_Word64_Set_in_Cache", sel2 (items, "Bits_per_Word64_Set_in_Cache"))

    gen_decl (fout, size_not_val, "Bits_per_CTag",                sel2 (items, "Bits_per_CTag"))

    if not size_not_val:
        fout.write ("\n" +
                    "// Addrs ----------------\n" +
                    "\n")
        gen_decl (fout, size_not_val, "addr_lo_word64_in_cline", sel2 (items, "addr_lo_word64_in_cline"))
        gen_decl (fout, size_not_val, "addr_hi_word64_in_cline", sel2 (items, "addr_hi_word64_in_cline"))
        fout.write ("\n")
        gen_decl (fout, size_not_val, "addr_lo_cset_in_cache", sel2 (items, "addr_lo_cset_in_cache"))
        gen_decl (fout, size_not_val, "addr_hi_cset_in_cache", sel2 (items, "addr_hi_cset_in_cache"))
        fout.write ("\n")
        gen_decl (fout, size_not_val, "addr_lo_word64_set_in_cache", sel2 (items, "addr_lo_word64_set_in_cache"))
        gen_decl (fout, size_not_val, "addr_hi_word64_set_in_cache", sel2 (items, "addr_hi_word64_set_in_cache"))
        fout.write ("\n")
        gen_decl (fout, size_not_val, "addr_lo_ctag", sel2 (items, "addr_lo_ctag"))

    return 0

# ================================================================
# Generate a single declaration

def gen_decl (fout, size_not_val, ide, val_and_formula):
    (val, formula) = val_and_formula
    if size_not_val:
        ide = str.upper (ide [0:1]) + ide [1:]
        fout.write ("typedef  {0:8d}   {1:s};    // {2}\n".format (val, ide, formula))
    else:
        ide = str.lower (ide)
        fout.write ("Integer  {0:>28s} = {1:8d};    // {2}\n".format (ide, val, formula))

# ================================================================
# For non-interactive invocations, call main() and use its return value
# as the exit code.
if __name__ == '__main__':
  sys.exit (main (sys.argv))
